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Galactic archaeology with TESS: prospects for testing the star formation history in the solar neighbourhood

Galactic archaeology with TESS: prospects for testing the star formation history in the solar neighbourhood
Galactic archaeology with TESS: prospects for testing the star formation history in the solar neighbourhood
A period of quenching between the formation of the thick and thin disks of the Milky Way has been recently proposed to explain the observed age-[α/Fe] distribution of stars in the solar neighbourhood. However, robust constraints on stellar ages are currently available for only a limited number of stars. The all-sky survey TESS (Transiting Exoplanet Survey Satellite) will observe the brightest stars in the sky and thus can be used to investigate the age distributions of stars in these components of the Galaxy via asteroseismology, where previously this has been diffcult using other techniques. The aim of this preliminary study was to determine whether TESS will be able to provide evidence for quenching periods during the star formation history of the Milky Way. Using a population synthesis code, we produced populations based on various stellar formation history models and limited the analysis to red-giant-branch stars. We investigated the mass-Galactic-disk-height distributions, where stellar mass was used as an age proxy, to test for whether periods of quenching can be observed by TESS. We found that even with the addition of 15% noise to the inferred masses, it will be possible for TESS to find evidence for/against quenching periods suggested in the literature (e.g. between 7 and 9 Gyr ago), therefore providing stringent constraints on the formation and evolution of the Milky Way.
2100-014X
Thomas, Alexandra
ed2d52a8-c195-4b23-9de5-7b7a80a86067
Stevenson, Emma
f80d54db-850f-4724-b68b-2a4a70178e58
Gittins, Fabian
657ec875-fac3-4606-9dcd-591ef22fc9f6
Miglio, Andrea
35551f89-736e-4700-bb13-2a4aaf13f67b
Davies, Guy
737be98e-2b3e-403a-93a1-ea1960ff7044
Girardi, Léo
cb4257d9-030d-4f07-bcc5-4ccd43f871b7
Campante, Tiago L.
7699ce25-a13a-4f9b-a615-5d6e6b4cf2e1
Schofield, Mathew
ccd28e3f-fc82-44f6-9a92-f8b884f1a5db
Thomas, Alexandra
ed2d52a8-c195-4b23-9de5-7b7a80a86067
Stevenson, Emma
f80d54db-850f-4724-b68b-2a4a70178e58
Gittins, Fabian
657ec875-fac3-4606-9dcd-591ef22fc9f6
Miglio, Andrea
35551f89-736e-4700-bb13-2a4aaf13f67b
Davies, Guy
737be98e-2b3e-403a-93a1-ea1960ff7044
Girardi, Léo
cb4257d9-030d-4f07-bcc5-4ccd43f871b7
Campante, Tiago L.
7699ce25-a13a-4f9b-a615-5d6e6b4cf2e1
Schofield, Mathew
ccd28e3f-fc82-44f6-9a92-f8b884f1a5db

Thomas, Alexandra, Stevenson, Emma, Gittins, Fabian, Miglio, Andrea, Davies, Guy, Girardi, Léo, Campante, Tiago L. and Schofield, Mathew (2017) Galactic archaeology with TESS: prospects for testing the star formation history in the solar neighbourhood. EPJ Web of Conferences, 160, [05006]. (doi:10.1051/epjconf/201716005006).

Record type: Article

Abstract

A period of quenching between the formation of the thick and thin disks of the Milky Way has been recently proposed to explain the observed age-[α/Fe] distribution of stars in the solar neighbourhood. However, robust constraints on stellar ages are currently available for only a limited number of stars. The all-sky survey TESS (Transiting Exoplanet Survey Satellite) will observe the brightest stars in the sky and thus can be used to investigate the age distributions of stars in these components of the Galaxy via asteroseismology, where previously this has been diffcult using other techniques. The aim of this preliminary study was to determine whether TESS will be able to provide evidence for quenching periods during the star formation history of the Milky Way. Using a population synthesis code, we produced populations based on various stellar formation history models and limited the analysis to red-giant-branch stars. We investigated the mass-Galactic-disk-height distributions, where stellar mass was used as an age proxy, to test for whether periods of quenching can be observed by TESS. We found that even with the addition of 15% noise to the inferred masses, it will be possible for TESS to find evidence for/against quenching periods suggested in the literature (e.g. between 7 and 9 Gyr ago), therefore providing stringent constraints on the formation and evolution of the Milky Way.

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More information

Accepted/In Press date: 27 October 2017
Published date: 27 October 2017
Venue - Dates: SPACEINN & HELAS8 Conference: Seismology of the Sun and the Distant Stars 2016 – Using Today’s Successes to Prepare the Future – TASC2 & KASC9 Workshop, Angra do Heroísmo, Terceira-Açores, Portugal, 2016-07-11 - 2016-07-16

Identifiers

Local EPrints ID: 468741
URI: http://eprints.soton.ac.uk/id/eprint/468741
DOI: doi:10.1051/epjconf/201716005006
ISSN: 2100-014X
PURE UUID: e4d1a998-8732-4e95-9784-04fe9dd4fad6
ORCID for Fabian Gittins: ORCID iD orcid.org/0000-0002-9439-7701

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Date deposited: 24 Aug 2022 16:37
Last modified: 17 Mar 2024 04:09

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Contributors

Author: Alexandra Thomas
Author: Emma Stevenson
Author: Fabian Gittins ORCID iD
Author: Andrea Miglio
Author: Guy Davies
Author: Léo Girardi
Author: Tiago L. Campante
Author: Mathew Schofield

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